Time–frequency time–space LSTM for robust classification of physiological signals

被引:0
|
作者
Tuan D. Pham
机构
[1] Prince Mohammad Bin Fahd University,Center for Artificial Intelligence
来源
Scientific Reports | / 11卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Automated analysis of physiological time series is utilized for many clinical applications in medicine and life sciences. Long short-term memory (LSTM) is a deep recurrent neural network architecture used for classification of time-series data. Here time–frequency and time–space properties of time series are introduced as a robust tool for LSTM processing of long sequential data in physiology. Based on classification results obtained from two databases of sensor-induced physiological signals, the proposed approach has the potential for (1) achieving very high classification accuracy, (2) saving tremendous time for data learning, and (3) being cost-effective and user-comfortable for clinical trials by reducing multiple wearable sensors for data recording.
引用
收藏
相关论文
共 50 条
  • [21] Spectrogram time-frequency analysis and classification of digital modulation signals
    bin Sha'ameri, Ahmad Zuri
    Lynn, Tan Jo
    [J]. ICT-MICC: 2007 IEEE INTERNATIONAL CONFERENCE ON TELECOMMUNICATIONS AND MALAYSIA INTERNATIONAL CONFERENCE ON COMMUNICATIONS, VOLS 1 AND 2, PROCEEDINGS, 2007, : 113 - 118
  • [22] The Use of Time-Frequency Moments as Inputs of LSTM Network for ECG Signal Classification
    Klosowski, Grzegorz
    Rymarczyk, Tomasz
    Wojcik, Dariusz
    Skowron, Stanislaw
    Cieplak, Tomasz
    Adamkiewicz, Przemyslaw
    [J]. ELECTRONICS, 2020, 9 (09) : 1 - 22
  • [23] Time–Frequency Feature Fusion for Noise Robust Audio Event Classification
    Ian McLoughlin
    Zhipeng Xie
    Yan Song
    Huy Phan
    Ramaswamy Palaniappan
    [J]. Circuits, Systems, and Signal Processing, 2020, 39 : 1672 - 1687
  • [24] Robust Sound Classification for Surveillance using Time Frequency Audio Features
    Ul Hassan, Saleet
    Khan, Muhammad Zeeshan
    Khan, Muhammad Usman Ghani
    Saleem, Summra
    [J]. 2019 INTERNATIONAL CONFERENCE ON COMMUNICATION TECHNOLOGIES (COMTECH), 2019, : 13 - 18
  • [25] Authenticating time and frequency signals
    Levine, Judah
    [J]. Proceedings of the Annual IEEE International Frequency Control Symposium, 1999, 1 : 304 - 308
  • [26] Time-frequency plane Wiener filtering for robust processing of speech signals
    Ang, A
    Ang, EL
    Premkumar, AB
    Madhukumar, AS
    [J]. IEEE TENCON'97 - IEEE REGIONAL 10 ANNUAL CONFERENCE, PROCEEDINGS, VOLS 1 AND 2: SPEECH AND IMAGE TECHNOLOGIES FOR COMPUTING AND TELECOMMUNICATIONS, 1997, : 35 - 38
  • [27] A Dementia Classification Framework Using Frequency and Time-Frequency Features Based on EEG Signals
    Durongbhan, Pholpat
    Zhao, Yifan
    Chen, Liangyu
    Zis, Panagiotis
    De Marco, Matteo
    Unwin, Zoe C.
    Venneri, Annalena
    He, Xiongxiong
    Li, Sheng
    Zhao, Yitian
    Blackburn, Daniel J.
    Sarrigiannis, Ptolemaios G.
    [J]. IEEE TRANSACTIONS ON NEURAL SYSTEMS AND REHABILITATION ENGINEERING, 2019, 27 (05) : 826 - 835
  • [28] Modulation classification method for frequency modulation signals based on the time-frequency distribution and CNN
    Zhang, Juan
    Li, Yong
    Yin, Junping
    [J]. IET RADAR SONAR AND NAVIGATION, 2018, 12 (02): : 244 - 249
  • [29] Application of time-frequency representations to classification of vibration signals of electric motors
    Grabowski, D
    [J]. SIXTH INTERNATIONAL CONFERENCE ON VIBRATION MEASUREMENTS BY LASER TECHNIQUES: ADVANCES AND APPLICATIONS, 2004, 5503 : 143 - +
  • [30] Time frequency domain deep CNN for automatic background classification in speech signals
    Yakkati R.R.
    Yeduri S.R.
    Tripathy R.K.
    Cenkeramaddi L.R.
    [J]. International Journal of Speech Technology, 2023, 26 (03) : 695 - 706
12345